GS Series ¼" – 1" Back Pressure RegulatorsFOR GAS, LIQUID, AND MIXED PHASE SERVICE
5X MORE
PRECISE
than standard
regulators
© 2011-2019 Equilibar, LLC
The Equilibar
DifferenceTraditional back pressure regulators set the upstream pressure with a spring. These designs utilize sliding seals and other moving parts that can introduce hysteresis and other undesired effects into a process. The Equilibar® back pressure regulator uses a thin, supple diaphragm as the only moving part. This allows frictionless operation without cracking pressure or hysteresis. The accuracy of the Equilibar® back pressure regulator is limited only by the accuracy of the pilot set-point.
Our performance.Equilibar® back pressure regulators outperform the competition, particularly in applications with low flow rates, mixed phase fluids, corrosive media, or extreme temperatures.
Our people.Every inquiry gets focused attention from our engineering team to determine the best possible product for your needs. Every back pressure regulator is hand assembled and tested to meet our stringent quality standards.
Our priorities.Our goal is to exceed your expectations. In an industry where delivery times frequently exceed 6 weeks, we offer many of our standard products with delivery in about two weeks.
5X MORE
PRECISE
than standard
regulators
3www.equilibar.com
E/P
Performance Comparison
Diaphragm Pilot (Reference)
Manual Pressure
RegulatorElectro-
PneumaticRegulator – OR –
Flow
TYPE PRESSURE REDUCING REGULATOR
BACK PRESSURE REGULATOR
SCHEMATIC
CONTROLS PRESSURE Downstream Upstream
OPENS TO Increase downstream pressure
Decrease upstream pressure
CLOSES TO Decrease downstream pressure
Increase upstream pressure
How It WorksSimply load the Equilibar® back pressure regulator with a pilot pressure equal to your desired back pressure and the Equilibar does the rest. This pressure forces the flexible diaphragm down onto a plate of orifices. A rise in inlet pressure lifts the diaphragm up to allow excess pressure to be relieved through the outlet orifices. Similarly, a loss of pressure at the inlet causes the diaphragm to be pushed closer to the orifices, restricting flow and rebuilding pressure upstream.
BACK PRESSURE REGULATORS VS PRESSURE REDUCING REGULATORSPressure reducing regulators reduce a higher supply pressure at the inlet down to a regulated lower pressure at the outlet (downstream). Back pressure regulators work the opposite way. They regulate the inlet (upstream) pressure by opening up only as much as necessary to hold back the desired pressure at the inlet (upstream).
Pilot operate your Equilibar® back pressure regulator with an electronic pressure regulator for automated back pressure control.
Or set the pilot pressure with a precisionpressure reducing regulator for manual control.
TraditionalSpring-TypeRegulators
Inlet Outlet
www.equilibar.com 3
Inle
t Pre
ssur
e
© 2011-2019 Equilibar, LLC
PressureReducingRegulator
AirCompressor
Dome Loaded BackPressure Regulator
Exhaust
FlowControl
To Application
Pilot Regulator
A common application for a back pressure regulator is shown in the schematic at right. A pump cannot build discharge pressure unless there is resistance on its outlet piping. A properly sized back pressure regulator can create just the necessary amount of resistance to accurately control pump discharge pressure.
Note that the concept of pressure bypass control works equally well for all types of pumps (i.e. centrifugal pumps as well as positive displacement pumps). When used this way, a back pressure regulator is also referred to as a pressure sustaining valve or pressure bypass valve.
Controlling Pump Output Pressure
Precision Low Pressure Gas Delivery Tubing Extrusion Systems
Tubing extrusion is an example of an application where very low pressure control is required across widely varying flow rates. It is difficult to identify a pressure reducing regulator or automated control valve that can respond with adequate speed and precision in this range below 0.5 psig (34 mbar).
Equilibar® precision back pressure regulators are frequently used for these extrusion control applications because of their high sensitivity in this low pressure range. When the GS Series BPRs are fitted with highly sensitive diaphragms, they can control pressure down to the range of 0.03 psig (2 mbar). In the schematic below, a flow controller, such as a rotameter, is used to establish a flow rate greater than the maximum required for the application. The back pressure regulator is set to vent off all flow greater than what is required to maintain the application at its precise set-point pressure. This approach is especially useful in applications where bidirectional pressure control is needed (both supplying to and venting flow from the application).
The Equilibar back pressure regulator can receive its 1:1 set-point pressure from either a small manual pressure regulator (such as the Equilibar LPR2, as shown) or from an electronic pressure regulator (such as the Equilibar QPV).
PressureReducingRegulator
AirCompressor
Liquid Tank
CentrifugalPump
To Application
Dome Loaded BackPressure Regulator
5www.equilibar.com
Fuel Pump, Fuel Injector and Fuel Rail Testing
Back Pressure Regulators for Fuel Cells
In fuel system component testing, it is desirable to perform development and quality assurance tests at or close to actual operating conditions. This means varying the back pressure and the rpm of the unit(s) during the testing cycle. Varying speed is a well known process, but varying back pressure may get complicated or costly. Equilibar back pressure regulators can simplify the design of the test rig and provide reliable performance under high cycle service.
In the schematic below, the pump under test provides flow to an Equilibar back pressure regulator which has a pneumatic
pilot signal from an electro-pneumatic controller driven by a test computer with the desired rpm, flow, and pressure sequences. The tests can simulate the actual service conditions of varying loads and speeds, enabling a better prediction of performance in use. The same test stand can be used for quality assurance product tests.
Benefits: The pressures can be modulated rapidly to create high-cycle lifetime tests in a relatively short period of time, as the Equilibar regulator has a flexible diaphragm as its only moving part.
PLC
Electronic Pilot Regulator
PLC Electronic Pilot Regulator
PumpOuterTest
Filter
Pump
Air CompressorBackPressure Regulator
PressureTransducer
PressureTransducer
PressureReducingRegulator
Gas Supply
Fuel Cell
ExhaustBackPressure
Regulator
The Equilibar® precision back pressure regulator is the perfect fit for many fuel cell applications. Fuel cell testing systems, in particular, benefit from the high sensitivity in the low to mid pressure ranges that is lacking in most competitive products. Equilibar’s GR trim was designed in response to the demanding flow rate requirements of the fuel cell testing industry. These back pressure regulators can provide stable stack pressures through ultra wide flow rate ranges required for rigorous test protocols. Gas flow rate control is possible down to below 1 ml/minute. The superior low flow control results in an incredible 1000:1 flow rate turn-down ratio.
© 2011-2019 Equilibar, LLC
Traditional back pressure regulators use springs and sliding seals and develop overpressure with increasing flow as the spring is gradually compressed.
The Equilibar® back pressure regulator uses only a frictionless flexible diaphragm to modulate the pressure. It opens fully with minimal overpressure, is highly sensitive, and exhibits virtually no dead-band or hysteresis.
PRECISION OVER VARYING FLOW RANGESThe inlet pressure of most back pressure regulators varies significantly with changes in process flow.
The chart at right shows how the Equilibar GS/GSD regulator holds a constant process pressure even through widely varying flow rates. The GS/GSD regulator provides stable pressure control across flow ranges of 1000:1, and up to 10,000:1 in many applications.
LIQUID OR GAS APPLICATIONSUnlike traditional pressure regulators, the GS Series is equally suited for liquid and gas applications.
The water performance curves at right show gradual pressure build above set-point as shear develops inside the regulator.
The logarithmic chart below shows excellent pressure stability down to very low flow rates. Because of this wide turn-down ratio, it is possible to size the Equilibar BPR for each application’s required precision.
MIXED PHASE APPLICATIONSMixed phase applications cause problems for traditional pressure regulators because of the great variation in density between liquid and gas. However, the Equilibar BPR is able to process these density changes with minimal pressure disruption.
Our Key Performance Advantage
Ultra Wide Flow Range Performance 3/8” GSD3 Back Pressure Regulator
Inle
t Pr
essu
re, p
sig
Inle
t Pr
essu
re, k
pag
Air Flow, SCFM
Air Flow, LPM
100
10
1
0.1
100
10
1
.3 3 30 300
0.01 0.1 1 10 100
Various Set Points: psig
Water Performance - 1" GSD8In
let
Pres
sure
, psi
g
Water Flow, GPM0 10 20 30 40 50 60
80
70
60
50
40
30
20
10
0
Wide Flow Range - 1" GSD8
Inle
t Pr
essu
re, p
sig
Water Flow, GPM0 0.1 1 10 100
80
70
60
50
40
30
20
10
0
www.equilibar.com 7
GS Series Back Pressure Regulators (Metal)
See Figure 1
BASE PART #
MAX. PRESSURE RATING¹
FLOW COEFF. (CV) INLET / OUTLET
PORT SIZE
REFERENCE PORT SIZE
PORT THREADS DIM A DIM B
PSIG (BAR) MIN MAX STANDARD OPTIONAL INCH (MM)
Stainless Steel 316/316L, Hastelloy C276, Titanium, Monel and Zirconium Models
GSD2/GS2 750 (51)
1E-03
1.20 1/4"
1/8"N
(NPT)
B, C, O, R, S, T
3.00 (76) 1.34 (34)
GSDM2 1000 (68) 3.25 (83) 1.34 (34)
GSDH2 2500 (172) 3.30 (84) 1.60 (41)
GSD3/GS3 400 (28)
1.80 3/8"
3.50 (89) 1.40 (36)
GSDM3 800 (55) 3.75 (95) 1.54 (39)
GSDH3 1400 (97) 3.85 (98) 1.78 (45)
GSD4/GS4 350 (24)
3.20 1/2"
B, C, F, G, O, R, S, T
4.50 (114) 1.73 (44)
GSDM4 750 (52) 5.00 (127) 1.85 (47)
GSDH4 1400 (97) 5.00 (127) 1.98 (50)
GSD6/GS6 300 (21)
1E-02
5.50 3/4"
6.00 (152) 2.01 (51)
GSDM6 800 (55) 6.25 (159) 2.44 (62)
GSDH6 1600 (110) 6.40 (163) 2.90 (74)
GSD8/GS8 150 (10)
8.50 1"
7.00 (178) 2.50 (64)
GSDM8 500 (34) 7.25 (184) 2.76 (70)
GSDH8 2100 (145) 7.80 (198) 3.33 (85)
Aluminum
GSD2 400 (27)
1E-03
1.20 1/4"
1/8"N
(NPT) B, C, T
3.00 (76) 1.34 (34)
GSD3 250 (17) 1.80 3/8" 3.50 (89) 1.40 (36)
GSD4 200 (13) 3.20 1/2" 4.50 (114) 1.73 (44)
GSD6 150 (10)1E-02
5.50 3/4" 6.00 (152) 2.01 (51)
GSD8 75 (5) 8.50 1" 7.00 (178) 2.50 (64)
PORTING OPTIONS
NOTATION TYPE
N NPT (standard)
B BSPP
C Custom
F 150# Flange
G 300# Flange
O Swagelok VCO®
R Swagelok VCR®
S SAE
T Tube stub
TECHNICAL SPECIFICATIONS
Max Operating Pressure
Pressure ratings listed in the table are the maximum possible pressure that a unit may be configured to. Units can be configured for optimum performance at lower pressures. Speak with an application engineer for more information.
Proof Pressure 150 % Rated Pressure2
Design Pressure 400 % Maximum Body Pressure3
Temperature RatingUp to 150 °C (Metal Body, PTFE Diaphragm, Viton® O-Rings) Up to 200 °C (Metal Body, Metal Diaphragm, Viton® O-Rings) Up to 300 °C (Metal Body, Metal Diaphragm, Kalrez® O-Rings)
WETTED MATERIALS
Body MaterialStainless Steel 316/316L (standard) Also available: Hastelloy C276, Titanium, Zirconium
O-RingsViton® (FKM) (standard) Also available: Kalrez® (FFKM), PTFE, EPDM, Buna-N
DiaphragmPTFE/Glass Laminate (standard) Also available: Stainless Steel SS316/316L, Hastelloy C276, Virgin PTFE, FKM, Polyimide, Buna-N, PEEK, EPDM
Viton® and Kalrez® are registered trademarks of DuPont. VCO® and VCR® are trademarks of Swagelok.
Fig. 1: Drawing For Reference
Reference Port
OutletInlet
1 Maximum pressure rating listed in this table is based on operating at 300 °C. Max pressure ratings will change depending on temperature. Speak to an application engineer.
2 All Equilibar units are tested to 150% of their rated pressure prior to shipment. 3 Designed according to ASME B31.3, which incorporates a 4X safety factor.
© 2011-2019 Equilibar, LLC
See Figure 2
BASE PART #
MAX. PRESSURE RATING
FLOW COEFF. (CV) INLET / OUTLET
PORT SIZE
REFERENCE PORT SIZE
PORT THREADS DIM A DIM B
PSIG (BAR) MIN MAX STANDARD OPTIONAL INCH (MM)
PVC, CPVC, PVDF, and PEEK Models¹
GSD2/GS2 120 (8)
1E-03
1.20 1/4"
1/8"N
(NPT)
B, C, S, T3.25 (83) 1.58 (40)
GSD3/GS3 100 (6) 1.80 3/8" 3.75 (95) 1.70 (43)
GSD4/GS4 75 (5) 3.20 1/2"
B, C, F, S, T
4.75 (121) 1.83 (46)
GSD6/GS6 50 (3)1E-02
5.50 3/4" 6.25 (159) 2.34 (59)
GSD8/GS8 50 (3) 8.50 1" 7.25 (184) 2.93 (74)
PTFE Models
GSD2/GS2
50 (3)
1E-03
1.20 1/4"
1/4"N
(NPT) B, C, T
3.25 (83) 1.62 (41)
GSD3/GS3 1.80 3/8" 3.75 (95) 1.80 (46)
GSD4/GS4 3.20 1/2" 4.75 (121) 2.01 (51)
GSD6/GS61E-02
5.50 3/4" 6.25 (159) 2.50 (64)
GSD8/GS8 8.50 1" 7.25 (184) 3.33 (85)
GS Series Back Pressure Regulators (Polymer)
PORTING OPTIONS
NOTATION TYPE
N NPT (standard)
B BSPP
C Custom
F 150# Flange
G 300# Flange
S SAE
TECHNICAL SPECIFICATIONS
Max Operating Pressure
Pressure ratings listed in the table are the maximum possible pressure that a unit may be configured to. Units can be configured for optimum performance at lower pressures.
Speak with an application engineer for more information.
Proof Pressure 150% Rated Pressure2
Design Pressure 400% Maximum Body Pressure3
Temperature Rating Up to 40C (Polymer Body)
WETTED MATERIALS
Body MaterialPVC (standard)
Also available: PTFE, PVDF, PEEK
O-RingsViton® (FKM) (standard)
Also available: Kalrez® (FFKM), PTFE, EPDM, Buna-N
DiaphragmPTFE/Glass Laminate (standard)
Also available: Virgin PTFE, FKM, Polyimide, Buna-N, PEEK, EPDM
¹ Polymer models not recommended for compressible gas applications.
Reference Port
Outlet
Inlet
Fig. 2: Drawing For Reference
PATENTS These regulators are subject to one or more of these patents: US6,886,591, US7,080,660, US7,673,650, US8,215,336, DE60322443D1, GB1639282, FR1639282
2 All Equilibar units are tested to 150% of their rated pressure prior to shipment. 3 Designed according to ASME B31.3, which incorporates a 4X safety factor.
Viton® and Kalrez® are registered trademarks of DuPont. VCO® and VCR® are trademarks of Swagelok.
9www.equilibar.com
EXAMPLE
GSD 2 S N X - N S X P 100 T 150 G X VV B
X - X P T X
1 2 3 4 5 - 6 7 8 9 10 11 12 13 14
Ordering Information
1 MODEL
GSD Standard O-Ring Design
GS No O-Ring Seals
GSDM Medium Pressure Models
GSDH High Pressure Models
2 PORT SIZE
2 1/4"
3 3/8”
4 1/2”
6 3/4”
8 1”
3 BODY MATERIAL
S Stainless Steel 316/316L
P PVC
A Aluminum (Anodized)
H Hastelloy C276
T Titanium
Z Zirconium
F PTFE
K PEEK
D PVDF
M Monel
4 PORT THREADS
N NPT
B BSPP
S SAE
O VCO®
R VCR®
F 150# Flanges
G 300# Flanges
5 MOD #
Factory Selected
6 REFERENCE PORT THREADS
N NPT
B BSPP
S SAE
O VCO®
R VCR®7 CAP MATERIAL
(Non Wetted)
S Stainless Steel 316/316L
P PVC
A Aluminum (Anodized)
H Hastelloy C276
T Titanium
Z Zirconium
F PTFE
K PEEK
D PVDF
M Monel
8 BOLTS
Factory Selected
9 PRESSURE RATING (PSIG)
This is the maximum pressure you would like your unit to be configured to accept. Must be equal to or less than the maximum rated pressure (in psig).
10 TEMPERATURE RATING (°C)
Temperature Limitations:
40 for most polymer bodies
150 for most PTFE diaphragms
200 for Viton O-rings
300 for Kalrez O-rings
11 DIAPHRAGM MATERIAL
G PTFE (Glass Reinforced)
B Buna-N (Nitrile)
V FKM Fluoroelastomer
M EPDM
E Polyethylene
F PTFE (Virgin)
S Stainless Steel 316/316L
H Hastelloy C276
I Polyimide
K PEEK
L Kel-F
Q Monel
12 DIAPHRAGM THICKNESS
Factory Selected
13 O-RING (GSD UNITS ONLY)
(Wetted)
VV Viton® Shore 75
WW Viton® Shore 90
KK Kalrez® Grade 7075
LL Kalrez® Grade 7090
FF PTFE
EE EPDM
BB Buna-N
14 SPECIAL OPTIONS
B Mounting Bracket (GSD2 & GSD3 in stock)
O Oxygen Cleaning
Options marked in blue are typically in stock for fast shipment
Viton® and Kalrez® are registered trademarks of DuPont. VCO® and VCR® are trademarks of Swagelok.
© 2011-2019 Equilibar, LLC
Equilibar precision back pressure regulators get their pilot control signal using a fluid set-point pressure (also called ‘reference’ or ‘pilot’ pressure) on their top port.
You can supply your own set-point regulator or choose one of the popular pilot set-point regulators below.
Manual Pilot Control Options
APPLICATIONSUPPLY
PRESSUREPORTS EQUILIBAR PART NUMBER OUTLET PRESSURE RANGE
REPEATABILITY & SENSITIVITY
Series 3000(High Pressure) Max 10,000
psig
1/4” Inlet/Outlet
Gauge
30-10082-2100-02-0 0 - 250 psig (17 bar)
Sensitive through a wide range of
pressures
30-10082-2110-02-0 5 - 500 psig (34 bar)
30-10082-2120-02-0 5 - 1000 psig (69 bar)
30-10082-2130-02-0 10 - 1500 psig (103 bar)
30-10082-2140-02-0 15 - 2500 psig (172 bar)
30-10082-2150-02-0 25 - 4000 psig (276 bar)
30-10082-2160-02-0 50 - 6000 psig (414 bar)
Technical Page 30-10082-2170-02-0 100 - 10,000 psig (690 bar)
MEDIUM PRESSURE
Model 10(Medium Pressure)
Max 500 psig1/4” NPT
Inlet/Outlet Gauge
10212 0 - 2 psig (0.1 bar)
Sensitivity: Bleed option: .05% No-bleed option:
~ 0.2%
10222 0 - 10 psig (0.7 bar)
10202 0 - 20 psig (1.4 bar)
10232 0.5 - 30 psig (2.0 bar)
10242 1 - 60 psig (4.1 bar)
10262 2 - 150 psig (10 bar)
10272 3 - 200 psig (14 bar)
10282 5 - 300 psig (21 bar)
Technical Page 10292 5 - 400 psig (28 bar)
ULTRA LOW PRESSURE
LPR2 Ultra Low Pressure
Regulator
5 - 30 psig (Stable
Regulated)
1/4” Inlet/Outlet (No Gauge)
LPR2-B-7 .25-7 in H2O (1-18 mbar)
Sensitivity: 0.02 in H2O
Stability: 0.06
in H2O
LPR2-B-10 1-10 in H2O (3-25 mbar)
LPR2-B-28 1-28 in H2O (3-70 mbar)
LPR2-NB-7 .25-7 in H2O (1-18 mbar)
LPR2-NB-10 1-10 in H2O (3-25 mbar)
Technical Page LPR2-NB-28 1-28 in H2O (3-70 mbar)
APPLICATIONSUPPLY
PRESSUREPORTS EQUILIBAR PART NUMBER OUTLET PRESSURE RANGE
REPEATABILITY & SENSITIVITY
HIGH PRESSURE
11www.equilibar.com
REGULATOR DESCRIPTION KEY FEATURES
LOW PRESSURE - ULTRA PRECISION REGULATOR (150 PSIG MAX)
QPV Series Control Pressures up to 150psig (10 Bar) with high resolution
Min range: 0.1 psig (7 mbar)Max range: 0-150 psig (10 bar)
Available in gauge, absolute, vacuum and vacuum- positive rangesTrue proportional valve actionResolution: 0.005% - 0.2% FS
4-20mA and 0-10VDC analog I/OOptional DeviceNet or Serial Digital RS232/485
Technical Page
MEDIUM PRESSURE - PRECISION REGULATOR (500 PSIG MAX)
QB Series Control Pressures up to 500psig (35 Bar)
Min range: vacuum; 0-1 psig (.07 bar)Max range: 0 -500 psig (34 bar)
Available in gauge, absolute, vacuum and vacuum-positive ranges
0.2 to 0.5% FS accuracy4-20mA and 0-10VDC analog I/O
Optional DeviceNet or Serial Digital RS232/485
Technical Page
HIGH PRESSURE - PRECISION REGULATOR (1000 PSIG MAX)
GP SeriesDirectly Control 1000psig (69
Bar) Without a Ratio Amplifier
Max range: , 0 -1000 psig (69 Bar)Available in gauge, absolute, and vacuum-positive ranges
0.5% FS accuracyField Serviceable
Electronic Pilot Control Options
Automating your process pressure is easily accomplished by using an electronic pressure regulator to provide the pilot set-point pressure to the Equilibar dome-loaded back pressure regulator.
These devices are custom tuned on the bench to work perfectly with the Equilibar precision back pressure reglators or vacuum regulators.
Contact Equilibar or visit our website for additional details about the many possible configurations of these products.
Equilibar provides innovative and robust pressure control technology for researchers and engineers worldwide. We are proud to design, manufacture, and test our patented back pressure regulators in our factory overlooking the Blue Ridge Mountains near Asheville, NC.
APPLICATION ENGINEERING–WHAT SETS US APARTUnlike mass-market regulator distributors, we focus on working with you, the scientist or engineer with a complex pressure control scenario.
Our application engineers work collaboratively with clients to identify the optimal model, trim, and diaphragm for each application’s unique challenges. No matter where you are on the globe, you can stay in close contact with your engineer by email, telephone, videoconferencing, or fax.
After installation, your application engineer will support you with start-up information and fine-tuning as needed.
Equilibar, LLC 320 Rutledge Rd. Fletcher, North Carolina 28732 United States Tel: +1-828-650-6590 Fax: +1-801-504-4439 Monday - Friday 8:00 AM - 5:00 PM EST 12:00 - 21:00 GMT [email protected]
©Equilibar September 2019 R4
Made in the USA
About Equilibar
Equilibar’s quality system is ISO 9001:2015 certified.
Each application is reviewed by our engineering team to ensure quality performance of our products.
Our engineers offer custom designed solutions for the most difficult pressure control challenges. Feel free to contact us to discuss your situation.